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Molecular Biology Study of DNA and how it serves as the molecular basis of heredity.Study of DNA and how it serves as the molecular basis of heredity. In 1920s it became clear that chromosomes contained genes for genetic traits.In 1920s it became clear that chromosomes contained genes for genetic traits. However, chromosomes are made up of both protein and DNA.However, chromosomes are made up of both protein and DNA. Which one was the genetic material?Which one was the genetic material? Before the 1940s most scientists believed that proteins were the genetic material of cells, and that nucleic acids (DNA and RNA) were too simple to code for genes.Before the 1940s most scientists believed that proteins were the genetic material of cells, and that nucleic acids (DNA and RNA) were too simple to code for genes.

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Molecular Biology: How was the genetic material identified? A number of experiments were important in establishing that DNA was indeed the genetic material of living organisms. 1.Frederick Griffith’s experiments (1928) 2.Oswald Avery’s experiments (1944) 3.Alfred Hershey and Martha Chase experiments (1954)

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1. Frederick Griffith’s Experiments (1928) Griffith was studying two strains of the bacteria Streptococcus pneumoniae, which causes pneumonia and other infections.Griffith was studying two strains of the bacteria Streptococcus pneumoniae, which causes pneumonia and other infections. Smooth strain (S): Produced a polysaccharide capsule that gave its colonies a smooth appearance. Because of the capsule, the bacteria can evade the immune system and cause disease.Smooth strain (S): Produced a polysaccharide capsule that gave its colonies a smooth appearance. Because of the capsule, the bacteria can evade the immune system and cause disease. Rough strain (R): Does not produce a capsule, rough appearance. Not pathogenic, doesn’t cause disease.Rough strain (R): Does not produce a capsule, rough appearance. Not pathogenic, doesn’t cause disease.

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1. Frederick Griffith’s Experiments (1928) Why were smooth bacteria present in the lastWhy were smooth bacteria present in the last group of mice (live rough + dead smooth)? Griffith concluded that the genetic instructions to make capsules had been transferred to the rough bacteria, from the dead smooth bacteria.Griffith concluded that the genetic instructions to make capsules had been transferred to the rough bacteria, from the dead smooth bacteria. He called this phenomenon transformation.He called this phenomenon transformation. However, he was unable to identify what type of molecule was responsible for transformation.However, he was unable to identify what type of molecule was responsible for transformation.

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II. Oswald Avery’s Experiments (1944) Avery repeated Griffith’s experiments using purified DNA, protein, and other substances (Dnase).Avery repeated Griffith’s experiments using purified DNA, protein, and other substances (Dnase). He showed that the chemical substance responsible for transformation was DNA and not protein.He showed that the chemical substance responsible for transformation was DNA and not protein. While many biologists were convinced, others remained skeptical.While many biologists were convinced, others remained skeptical.

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III. Hershey and Chase Experiments (1952): Definitive proof that DNA rather than Protein carries the hereditary information of lifeDefinitive proof that DNA rather than Protein carries the hereditary information of life E. Coli bacteriophage: A virus that infects bacteria.E. Coli bacteriophage: A virus that infects bacteria. Bacteriophages only contain a protein coat (capsid) and DNA. They wanted to find out whether the protein or DNA carried the genetic instructions to make more viruses.They wanted to find out whether the protein or DNA carried the genetic instructions to make more viruses. They labeled either the viral proteins or DNA:They labeled either the viral proteins or DNA: Protein capsid: Labeled with radioactive sulphur ( 35 S)Protein capsid: Labeled with radioactive sulphur ( 35 S) DNA: Labeled with radioactive phosphorus ( 32 P)DNA: Labeled with radioactive phosphorus ( 32 P) Radioactive labeled viruses were used to infect cells.Radioactive labeled viruses were used to infect cells.

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Bacteriophages Are Viruses that Infect Bacteria

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Either Bacteriophage DNA or Proteins Can be Labeled with Radioactive Elements

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Hershey Chase Experiment: DNA is Genetic Material

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III. (1952): III. Hershey and Chase Experiments (1952): Bacterial cells that were infected with the two types of bacteriophage, were then spun down into a pellet (centrifuged), and examined.Bacterial cells that were infected with the two types of bacteriophage, were then spun down into a pellet (centrifuged), and examined. Results:Results: 1. Labeled viral proteins did not enter infected bacteria (found in supernatant). 2. Labeled viral DNA did enter bacteria during viral infection (found in cell pellet). :Protein is not necessary to make new viruses. DNA is the molecule that carries the genetic information to make new viruses!!!!Conclusion:Protein is not necessary to make new viruses. DNA is the molecule that carries the genetic information to make new viruses!!!!

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Structure of DNA Molecule Erwin Chargaff (1947) Chargaff’s Rule: In the DNA of all living organisms, the amount of A = T and the G = CChargaff’s Rule: In the DNA of all living organisms, the amount of A = T and the G = C No matter which species on earth he studied, the DNA showed the same relative ratios Adenine = Thymine Guanine = CytosineNo matter which species on earth he studied, the DNA showed the same relative ratios Adenine = Thymine Guanine = Cytosine These results suggested that A & T and C & G were somehow paired up with each other in a DNA molecule.These results suggested that A & T and C & G were somehow paired up with each other in a DNA molecule.

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DNA Is a double helix held together by H bonds.Is a double helix held together by H bonds. DNA is an antiparallel double helix: 5’ end of one strand is paired to 3’ end of other strand.DNA is an antiparallel double helix: 5’ end of one strand is paired to 3’ end of other strand. A & T and G & C are paired up by hydrogen bonds.A & T and G & C are paired up by hydrogen bonds. Two strands are complementary to each other.Two strands are complementary to each other. If you know sequence of one strand, can determine sequence of the other one.If you know sequence of one strand, can determine sequence of the other one.

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How exactly does DNA replicate? Several models for DNA replication were proposed.Several models for DNA replication were proposed. 1. Conservative model: Two completely new strands are formed, which coil together. Original strands stay together.1. Conservative model: Two completely new strands are formed, which coil together. Original strands stay together. 2. Semiconservative model: One original strand pairs up with one new strand.2. Semiconservative model: One original strand pairs up with one new strand. 3. Dispersive model: Each strand is a mixture of old and new DNA.3. Dispersive model: Each strand is a mixture of old and new DNA.

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Three Models of DNA Replication

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How exactly does DNA replicate? Findings: Replication is carried out by DNA polymerase.Findings: Replication is carried out by DNA polymerase. 50 nucleotides per second in mammals 500 nucleotides per second in bacteria.50 nucleotides per second in mammals 500 nucleotides per second in bacteria. DNA strands unzip and each one acts as a template for the formation of a new strand.DNA strands unzip and each one acts as a template for the formation of a new strand. Nucleotides line up along template strand in accordance with base pairing rules.Nucleotides line up along template strand in accordance with base pairing rules. Enzymes link the nucleotides together to form new DNA strands.Enzymes link the nucleotides together to form new DNA strands. Semiconservative replication: Each new helix will contain one new strand and one old strand.Semiconservative replication: Each new helix will contain one new strand and one old strand.

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DNA Replication is Semiconservative

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How exactly does DNA replicate Strands are antiparallel: Run in opposite directions.Strands are antiparallel: Run in opposite directions. DNA polymerases can only add nucleotides to one end of the strand (3’ end).DNA polymerases can only add nucleotides to one end of the strand (3’ end). New strands grow in a 5’ to 3’ directionNew strands grow in a 5’ to 3’ direction Replication fork with: Leading strand: Made continuously. Lagging strand: Made discontinuously in Okazaki fragments which are then joined together.Replication fork with: Leading strand: Made continuously. Lagging strand: Made discontinuously in Okazaki fragments which are then joined together.